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- Nachgewiesen in: MEDLINE
- Sprachen: English
- Publication Type: Congress; Research Support, Non-U.S. Gov't; Editorial
- Language: English
- [New Phytol] 2024 May; Vol. 242 (4), pp. 1399-1403.
- MeSH Terms: Mycorrhizae* / physiology ; Research*
- References: Auer L, Buée M, Fauchery L, Lombard V, Barry KW, Clum A, Copeland A, Daum C, Foster B, LaButti K et al. 2024. Metatranscriptomics sheds light on the links between the functional traits of fungal guilds and ecological processes in forest soil ecosystems. New Phytologist 242: 1676–1690. ; Bogar LM. 2024. Modified source‐sink dynamics govern resource exchange in ectomycorrhizal symbiosis. New Phytologist 242: 1523–1528. ; Bönisch E, Blagodatskaya E, Dirzo R, Ferlian O, Fichtner A, Huang Y, Leonard SJ, Maestre FT, von Oheimb G, Ray T et al. 2024. Mycorrhizal type and tree diversity affect foliar elemental pools and stoichiometry. New Phytologist 242: 1614–1629. ; Carteron A, Cantera I, Guerrieri A, Marta S, Bonin A, Ambrosini R, Anthelme F, Azzoni RS, Almond P, Alviz P et al. 2024. Dynamics and drivers of mycorrhizal fungi after glacier retreat. New Phytologist 242: 1739–1752. ; Corrêa A, Ferrol N, Cruz C. 2024. Testing the trade‐balance model: resource stoichiometry does not sufficiently explain AM effects. New Phytologist 242: 1561–1575. ; Dickie IA, Alexander I, Lennon S, Öpik M, Selosse MA, van Der Heijden MG, Martin FM. 2015. Evolving insights to understanding mycorrhizas. New Phytologist 205: 1369–1374. ; Gille CE, Finnegan PM, Hayes PE, Ranathunge K, Burgess TI, de Tombeur F, Migliorini D, Dallongeville P, Glauser G, Lambers H. 2024. Facilitative and competitive interactions between mycorrhizal and nonmycorrhizal plants in an extremely phosphorus‐impoverished environment: role of ectomycorrhizal fungi and native oomycete pathogens in shaping species coexistence. New Phytologist 242: 1630–1644. ; Giovannetti M, Binci F, Navazio L, Genre A. 2024a. Nonbinary fungal signals and calcium‐mediated transduction in plant immunity and symbiosis. New Phytologist 241: 1393–1400. ; Giovannetti M, Binci F, Navazio L, Genre A. 2024b. Fungal signals and calcium‐mediated transduction pathways along the plant defence‐symbiosis continuum. New Phytologist 242: 1404–1407. ; Golan J, Wang YW, Adams CA, Cross H, Elmore H, Gardes M, Gonçalves SC, Hess J, Richard F, Wolfe B et al. 2024. Death caps (Amanita phalloides) frequently establish from sexual spores, but individuals can grow large and live for more than a decade in invaded forests. New Phytologist 242: 1753–1770. ; Hewitt RE, DeVan MR, Taylor DL, Mack MC. 2024. Root‐associated fungi and acquisitive root traits facilitate permafrost nitrogen uptake from long‐term experimentally warmed tundra. New Phytologist 242.: 1704-1716. ; Jörgensen K, Clemmensen KE, Wallander H, Lindahl BD. 2024. Ectomycorrhizal fungi are more sensitive to high soil nitrogen levels in forests exposed to nitrogen deposition. New Phytologist 242: 1725–1738. ; Kakouridis A, Yuan MT, Nuccio EE, Hagen JA, Fossum CA, Moore ML, Estera‐Molina KY, Nico PS, Weber PK, Pett‐Ridge J et al. 2024. Arbuscular mycorrhiza convey significant plant carbon to a diverse hyphosphere microbial food web and mineral‐associated organic matter. New Phytologist 242: 1661–1675. ; Kokkoris V, Banchini C, Pare L, Abdellatif L, Séguin S, Hubbard K, Findlay W, Dalpé Y, Dettman J, Corradi N et al. 2024. Rhizophagus irregularis, the model fungus in arbuscular mycorrhiza research, forms dimorphic spores. New Phytologist 242: 1771–1784. ; Lastovetsky OA, Caruso T, Brennan FP, Wall D, Pylni S, Doyle E. 2024. Spores of arbuscular mycorrhizal fungi host surprisingly diverse communities of endobacteria. New Phytologist 242: 1785–1797. ; Ledford WC, Silvestri A, Fiorilli V, Roth R, Rubio‐Somoza I, Lanfranco L. 2024. A journey into the world of small RNAs in the arbuscular mycorrhizal symbiosis. New Phytologist 242: 1534–1544. ; Lekberg Y, Jansa J, Mcleod M, Dupre ME, Holben WE, Johnson D, Koide RT, Shaw A, Zabinski C, Aldrich‐Wolfe L. 2024. Carbon and phosphorus exchange rates in arbuscular mycorrhizas depend on environmental context and differ among co‐occurring plants. New Phytologist 242: 1576–1588. ; Lofgren L, Nguyen NH, Kennedy P, Pérez‐Pazos E, Fletcher J, Liao H‐L, Wang H, Zhang K, Ruytinx J, Smith AH et al. 2024. Suillus: an emerging model for the study of ectomycorrhizal ecology and evolution. New Phytologist 242: 1448–1475. ; Mahmood S, Fahad Z, Bolou‐Bi EB, King K, Koehler SJ, Bishop K, Ekblad A, Finlay RD. 2024. Ectomycorrhizal fungi integrate nitrogen mobilisation and mineral weathering in boreal forest soil. New Phytologist 242: 1545–1560. ; Martin FM, van der Heijden MGA. 2024. The mycorrhizal symbiosis: research frontiers in genomics, ecology, and agricultural application. New Phytologist 242: 1486–1506. ; McPolin MC, Kranabetter JM, Philpott TJ, Hawkins BJ. 2024. Sporocarp nutrition of ectomycorrhizal fungi indicates an important role for endemic species in a high productivity temperate rainforest. New Phytologist 242: 1603–1613. ; Metzler P, Ksiazek‐Mikenas K, Chaudhary VB. 2024. Tracking arbuscular mycorrhizal fungi to their source: active inoculation and passive dispersal differentially affect community assembly in urban soils. New Phytologist 242: 1814–1824. ; Michaud TJ, Cline LC, Hobbie EA, Gutknecht JLM, Kennedy PG. 2024. Herbarium specimens reveal that mycorrhizal type does not mediate declining temperate tree nitrogen status over a century of environmental change. New Phytologist 242: 1717–1724. ; Monteux S, Blume‐Werry G, Gavazov K, Kirchhoff L, Krab EJ, Lett S, Pedersen EP, Väisänen M. 2024. Controlling biases in targeted plant removal experiments. New Phytologist 242: 1835–1846. ; Moreno Jiménez E, Ferrol N, Corradi N, Peñalosa JM, Rillig MC. 2024. The potential of arbuscular mycorrhizal fungi to enhance metallic micronutrient uptake and mitigate food contamination in agriculture: prospects and challenges. New Phytologist 242: 1441–1447. ; Mujica MI, Silva‐Flores P, Bueno G, Duchicela J. 2024. Integrating perspectives in developing mycorrhizal trait databases: a call for inclusive and collaborative continental efforts. New Phytologist 242: 1436–1440. ; Peng ZL, Johnson NC, Jansa J, Han JY, Fang Z, Zhang YL, Jiang SJ, Xi H, Mao L, Pan JB et al. 2024. Mycorrhizal effects on crop yield and soil ecosystem functions in a long‐term tillage and fertilization experiment. New Phytologist 242: 1798–1813. ; Perotto S, Balestrini R. 2024. At the core of the endomycorrhizal symbioses: intracellular fungal structures in orchid and arbuscular mycorrhiza. New Phytologist 242: 1408–1416. ; Plett KL, Wojtalewicz D, Anderson IC, Plett JM. 2024. Fungal metabolism and free amino acid content may predict nitrogen transfer to the host plant in the ectomycorrhizal relationship between Pisolithus spp. and Eucalyptus grandis. New Phytologist 242: 1589–1602. ; Singavarapu B, ul Haq H, Darnstaedt F, Nawaz A, Beugnon R, Cearz S, Eisenhauer N, Du J, Xue K, Wang Y et al. 2024. Influence of tree mycorrhizal type, tree species identity, and diversity on forest root‐associated mycobiomes. New Phytologist 242: 1691–1703. ; Voller F, Ardanuy A, Taylor AFS, Johnson D. 2024. Maintenance of host specialisation gradients in ectomycorrhizal symbionts. New Phytologist 242: 1426–1435. ; Wang D, Trimbos KB, Gomes SIF, Jacquemyn H, Merckx VSFT. 2024. Metabarcoding read abundances of orchid mycorrhizal fungi are correlated to copy numbers estimated using ddPCR. New Phytologist 242: 1825‐1834. ; Wang L, George TS, Feng G. 2024. Concepts and consequences of the hyphosphere core microbiome for arbuscular mycorrhizal fungal fitness and function. New Phytologist 242: 1529–1533. ; Wu SL, Fu W, Rillig MC, Chen BDD, Zhu YG, Huang LB. 2024. Soil organic matter dynamics mediated by arbuscular mycorrhizal fungi ‐ an updated conceptual framework. New Phytologist 242: 1417–1425. ; Xia M, McCormack ML, Suseela V, Kennedy PG, Tharayil N. 2024. Formations of mycorrhizal symbiosis alter the phenolic heteropolymers in roots and leaves of four temperate woody species. New Phytologist 242: 1476–1485. ; Zhang KL, Wang HH, Tappero R, Bhatnagar JM, Vilgalys R, Barry K, Keymanesh K, Tejomurthula S, Grigoriev IV, Kew WR et al. 2024. Ectomycorrhizal fungi enhance pine growth by stimulating iron‐dependent mechanisms with trade‐offs in symbiotic performance. New Phytologist 242: 1645–1660. ; Zhao BY, Jia XQ, Yu N, Murray JD, Yi KK, Wang ER. 2024. Microbe‐dependent and independent nitrogen and phosphate acquisition and regulation in plants. New Phytologist 242: 1507–1522.
- Grant Information: Huazhong Agricultural University; BioProtection Aotearoa; ANR-11-LABX-0002-01 Laboratory of Excellence ARBRE; 1789 Eesti Teadusagentuur
- Contributed Indexing: Keywords: agroecosystems and urban environments; community ecology; global change; life history traits; microbiome; molecular biology; mycorrhizal symbiosis; nutrient cycling
- Entry Date(s): Date Created: 20240425 Date Completed: 20240425 Latest Revision: 20240506
- Update Code: 20240507
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